Sealing element for a doctor blade chamber

The invention claimed is: 1. A sealing element for the frontal sealing of a doctor blade chamber of a flexographic printing press, the sealing element having a sealing surface that during operation rests against a roller body during operation of the flexographic printing press, the sealing surface having: an axial direction, defined by a rotational axis of the roller body, a radial direction, the radial direction being perpendicular to the axial direction, a first end and a second end, said first and second end defining the extremities of the sealing surface along the radial direction, and a center defined by a line across the sealing surface in the axial direction, said line being equidistant in the radial direction from each end of the sealing surface, having a base body configured to be deployed at the end faces of the doctor blade chamber in fittings furnished for the purpose, the base body including a bottom surface opposite the sealing surface, wherein the base body of the sealing element consists of an elastic material having a compression hardness causing the sealing surface to be biased relative to the roller body, and having a compressed air channel that extends from the bottom surface, through the base body, wherein compressed air is released from a flow outlet opening during operation of the flexographic printing press in such a way that the compressed air between the sealing surface and roller body forms a sealing flow film, said flow outlet opening being biased in the radial direction toward one of the first and second ends and not extending past the center. 2. The sealing element according to claim 1 , wherein to reduce wear, the sealing surface is coated with a less compressible material of higher compression hardness relative to the base body. 3. The sealing element according to claim 2 , wherein the compressed air is enriched with at least one additional fluid that propagates in the flow film and increases the sealing effect. 4. The sealing element according to claim 3 , wherein an overpressure of the compressed air is provided by a pressure line to which a pressure gauge is connected, the measurements of which may be transmitted to a monitoring apparatus. 5. The sealing element according to claim 2 , wherein an overpressure of the compressed air is provided by a pressure line to which a pressure gauge is connected, the measurements of which may be transmitted to a monitoring apparatus. 6. The sealing element according to claim 1 , wherein the compressed air is enriched with at least one additional fluid that propagates in the flow film and increases the sealing effect. 7. The sealing element according to claim 6 , wherein an overpressure of the compressed air is provided by a pressure line to which a pressure gauge is connected, the measurements of which may be transmitted to a monitoring apparatus. 8. The sealing element according to claim 1 , wherein an overpressure of the compressed air is provided by a pressure line to which a pressure gauge is connected, the measurements of which may be transmitted to a monitoring apparatus. 9. A method for operating a flexographic printing press with a doctor blade chamber the end faces of which are respectively sealed by a sealing element resting on a roller body according to one of claims 1 - 4 , the method comprising: using the sealing element at the end faces of the doctor blade chamber in fittings furnished for that purpose, making a connection between a compressed air outlet opening and a compressed air line, and forming an overpressure in the compressed air line such that the compressed air between the sealing surface and the roller body forms a sealing flow film.